automated hplc screening and method development system · 2007-11-21 · 1 automated hplc screening...
TRANSCRIPT
1
AUTOMATED HPLC SCREENING AND METHOD DEVELOPMENT SYSTEM
Rudy Sneyers, Willy Janssens, Achille Pluym and Ivan Somers
Johnson & Johnson Pharmaceutical Research & Development a division of Janssen Pharmaceutica N.V.
DRUG EVALUATION - ANALYTICAL DEVELOPMENT
WA20277
2
INTRODUCTION
For the development of selective HPLC methods to be used for quantitative determination of impurities, degradants, excipients and active in the drug substance as well as in the drug product a screening concept is currently used.The concept is based on a matrix screening between different pH and stationary phases.
The screening module consist of 4 HPLC systems each operating with a different MS compatible mobile phase at a different pH. Each HPLC system is connected with a valve switcher to permit automated selection between 8 columns with different selectivity.
After screening 32 chromatograms for each sample have to be evaluated. The best separation is selected based on pH and column selectivity.
3
Screening Experiments
A B
pH = 2.5
1. Zorbax Extend C18 2. Zorbax Bonus RP 3. Waters XTerra MS C18 4. Waters XTerra RP18 5. Waters Xterra Phenyl 6. Waters Symmetry Shield 7. YMC Pro C18 8. YMC Pack C4
A B
pH = 4.8
1. Zorbax Extend C18 2. Zorbax Bonus RP 3. Waters XTerra MS C18 4. Waters XTerra RP18 5. Waters Xterra Phenyl 6. Waters Symmetry Shield 7. YMC Pro C18 8. YMC Pack C4
A : 10 mM NH4OAc in water - CH3CN (950/50 v/v) + 0.1%, v/v TFA B : 10 mM NH4OAc in water - CH3CN (100/900 v/v) + 0.1%, v/v TFA
A : 10 mM NH4OAc in water - CH3CN (950/50 v/v) + 0.05%, v/v CH3COOH B : 10 mM NH4OAc in water - CH3CN (100/900 v/v) + 0.05%, v/v CH3COOH
A B
pH = 7
1. Zorbax Extend C18 2. Zorbax Bonus RP 3. Waters XTerra MS C18 4. Waters XTerra RP18 5. Waters Xterra Phenyl 6. Waters Symmetry Shield 7. YMC Pro C18 8. YMC Pack C4
A B
pH = 9
1. Zorbax Extend C18 2. Zorbax Bonus RP 3. Waters XTerra MS C18 4. Waters XTerra RP18 5. Waters Xterra Phenyl 6. Waters Symmetry Shield 7. YMC Pro C18 8. YMC Pack C4
A : 10 mM NH4OAc in water - CH3CN (950/50, v/v) B : 10 mM NH4OAc in water - CH3CN (100/900, v/v)
A : 10 mM NH4OAc in water - CH3CN (950/50 v/v) + 0.05%, v/v DEA B : 10 mM NH4OAc in water - CH3CN (100/900 v/v) + 0.05%, v/v DEA
4
32 chromatograms for each sample
1. Zorbax Extend C18
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
0
50
100
150
200
250
DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-003.D)
T002474 + T002475
R208176: JFHE_0105_077_1
stress, pH=2, 8h daglicht
stress, pH=4, 8h daglicht
stress, pH=6, 70 °C, OS, 2 dagen
*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-004.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-005.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-006.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-007.D)
5. YMC Pack C4
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
0
50
100
150
200
250
DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-035.D)
stress, pH=6, 70 °C, OS, 2 dagen
stress, pH=4, 8h daglicht
T002474 + T002475
R208176: JFHE_0105_077_1
stress, pH=2, 8h daglicht
*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-036.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-037.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-038.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-039.D)
2. Zorbax Bonus RP
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
0
50
100
150
200
250
DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-011.D)
stress, pH=6, 70 °C, OS, 2 dagen
T002474 + T002475
R208176: JFHE_0105_077_1
stress, pH=2, 8h daglicht
stress, pH=4, 8h daglicht
*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-012.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-013.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-014.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-015.D)
6. Waters Symmetry Shield RP18
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
0
50
100
150
200
250
DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-043.D)
stress, pH=6, 70 °C, OS, 2 dagen
stress, pH=4, 8h daglicht
T002474 + T002475
R208176: JFHE_0105_077_1
stress, pH=2, 8h daglicht
*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-044.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-045.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-046.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-047.D)
3. Waters XTerra MS C18
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
0
50
100
150
200
250
DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-019.D)
stress, pH=6, 70 °C, OS, 2 dagen
stress, pH=4, 8h daglicht
T002474 + T002475
R208176: JFHE_0105_077_1
stress, pH=2, 8h daglicht
*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-020.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-021.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-022.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-023.D)
7. YMC Pro C18
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
0
50
100
150
200
250
DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-051.D)
stress, pH=6, 70 °C, OS, 2 dagen
stress, pH=4, 8h daglicht
T002474 + T002475
R208176: JFHE_0105_077_1
stress, pH=2, 8h daglicht
*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-052.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-053.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-054.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-055.D)
4. Waters XTerra RP18
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
0
50
100
150
200
250
DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-027.D)
stress, pH=6, 70 °C, OS, 2 dagen
stress, pH=4, 8h daglicht
T002474 + T002475
R208176: JFHE_0105_077_1
stress, pH=2, 8h daglicht
*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-028.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-029.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-030.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-031.D)
8. Alltech Platinum EPS C18
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
0
50
100
150
200
250
DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-059.D)
stress, pH=6, 70 °C, OS, 2 dagen
stress, pH=4, 8h daglicht
T002474 + T002475R208176: JFHE_0105_077_1
stress, pH=2, 8h daglicht
*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-060.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-061.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-062.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-063.D)
5
Selected pH and column
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
0
50
100
150
200
250
DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-003.D)
T002474 + T002475
R208176: JFHE_0105_077_1
stress, pH=2, 8h daglicht
stress, pH=4, 8h daglicht
stress, pH=6, 70 °C, OS, 2 dagen
*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-004.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-005.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-006.D)*DAD1 A, Sig=240,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R208176\PH2.5\PH25-007.D)
6
Optimization
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
-50
0
50
100
150
200
250
DAD1 A, Sig=230,4 Ref=550,100 (G:\CQC-LC\DATA\MO\R184798\2609--06.D)
A : 10 m M N H 4O A c + 0.05% D EAB : CH 3CN
95/05 to 40/60 in 20 m in1 m l/m in230 nm
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
-50
0
50
100
150
200
250
VWD1 A, Wavelength=230 nm (G:\CQC-LC\DATA\MO\R184798\2709--01.D)
A : 10 m M N H 4OA c + 0.05% DEAB : C H 3C N - IPA (70/30)
95/05 to 40/60 in 20 m in1 m l/m in230 nm
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
-50
0
50
100
150
200
250
VWD1 A, Wavelength=230 nm (G:\CQC-LC\DATA\MO\R184798\2709--06.D)
A : 10 m M N H 4O A c + 0.05% D EAB : C H 3C N - C H 3O H (70/30)
95/05 to 40/60 in 20 m in1 m l/m in230 nm
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
-50
0
50
100
150
200
250
VWD1 A, Wavelength=230 nm (G:\CQC-LC\DATA\MO\R184798\2709--05.D)
A : 10 m M NH 4OAc + 0.05% DEAB : CH 3OH - IPA (70/30)
95/05 to 40/60 in 20 m in1 m l/m in230 nm
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
-50
0
50
100
150
200
250
VWD1 A, Wavelength=230 nm (G:\CQC-LC\DATA\MO\R184798\2709--10.D)
A : 10 m M NH 4OA c + 0.05% D EAB : CH 3CN - C H 3O H - IPA (50/30/20)95/05 to 50/50 in 20 m in1 m l/m in230 nm
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
-50
0
50
100
150
200
250
35°C
40°C
45°C
min0 2.5 5 7.5 10 12.5 15 17.5 20 22.5
mAU
-50
0
50
100
150
200
250
VWD1 A, Wavelength=230 nm (G:\CQC-LC\DATA\MO\R184798\2809--01.D)
A : 25 m M N H 4O A c + 0.05% D EAB : CH 3CN - CH 3O H - IPA (50/30/20)95/05 to 50/50 in 20 m in1 m l/m in230 nm
L O C K E D M E T H O D
C o l u m n W a t e r s X T e r ra M S C 1 8 ; 3 .5 µ m ; 1 0 0 x 4 .6 m m ; (p H r a n g e : 1 - 1 2 )
M o b i l e P h a s e A : 1 0 m M N H 4 A c in w a te r + 0 .0 5 % D E AB : a c e t o n i tr i le / m e t h a n o l /2 -p ro p a n o l : 5 0 /3 0 / 2 0 v /v / v %
E l u t io n m o d e l in e a r g r a d ie n t
T i m e 0 2 0 2 2 2 5 2 6 3 1% A 9 5 5 0 1 0 1 0 9 5 9 5% B 5 5 0 9 0 9 0 5 5
F lo w 1 . 0 m l/ m i n .
T e m p e r a t u r e 3 5 ° C
D e t e c t i o n 2 3 0 n m
I n je c t io n v o l u m e 2 0 µ l
D il u t i o n s o l v e n t w a te r
Once a suitable pH and column is selected generally other appropriate chromatographic parameters (gradient, organic modifiers, temperature, ionic strength ….. ) are optimizedstep by step.
7
Major Roadblocks with currently used process
min6 8 10 12 14 16 18 20
mAU
0
25
50
75
100
125
150
175
min6 8 10 12 14 16 18 20
mAU
0
25
50
75
100
125
150
175
YMC Pro C18 pH 2.5
XTerra RP18 C18 pH 7
• Many chromatograms to evaluate manually
- very complex- very time consuming
• The main problem with this manual selection is the peak tracking between the obtained chromatograms. Currently this peak tracking is performed based on peak heights, peak shapes and PDA spectra.
• Optimization is done step by step
8
New Approach
The new approach is the on-line combination of four HPLC systems and one mass spectrometer with a computer modelling and simulation system. The mass spectrometer is installed with a MUXinterface. In this way the related compounds can be immediately identified based on molecular mass.
Summary reports will be automatically generated and transfered to a chromatographic method development software (DryLab or ACD).
All important chromatographic parameters can be optimized with the assistance of the above described Method Development System.
9
Automated Screening and Method Optimization System
10
InstallationMUX Source on Waters ZQ
scan time: 0.13 secinter - scan delay: 0.1 sec
11
WavesMethod Variables
CH3CNCH3OH
IPATHF
with and without additive
Temperature
Gradient
Organic Modifier
Columns
pH
Buffer Concentration
pH 2.5 (NH4OAc + TFA)pH 4.8 (NH4OAc + CH3COOH) pH 7.0 (NH4OAc)pH 9.0 (NH4OAc + DEA)
Zorbax Extend C18Zorbax Bonus RPXTerra MS XTerra RP18XTerra PhenylSymmetry Shield RP18YMC Pro C18YMC Buthyl C4
WAVE 1(screening)
WAVE 2-3(optimization)
10 mM25 mM
25 min (35 min)55 min (65 min)
15°C60°C
Optimum pH
Best column
Optimum buffer concentration
12 experiments
64 experiments
12
Process Raw DataYellow Box
• Integrate PDA BPI (MaxPlot)
• Define correlating MS base peak for each integrated PDA peak
• Generate a list of all masses found
• Reject false positives based on missing 13C-isotope
• Tracking of all remaining masses with corresponding RT - Area - Peak Width
• Generate summary table
13
Integrate MaxPlot, define BPI and generate list masses found
Example 2: co-elutionMH+ 477 (BPI) added to list MH+ 462 not added to list
List
mas
ses f
ound
M.H +
161187190199214244300327367367368368368380396415459462477532696705841
Example 1: MH+ 459 (BPI) added to list
Example 1Condition: 10mM pH 2.5Retention Time: 9.79Example 2Condition: 10mM pH 2.5Retention Time: 12.50
14
Integrate MaxPlot, define BPI and generate list masses found
Example 3Condition: 10mM pH 7Retention Time: 14.93
Example 3: MH+ 462 added to list
It is statistically significant that within 64 experiments all peaks are once separated and the corresponding masses are added to the list.
Lis
t mas
ses f
ound
M .H +
161187190199214244300327367367368368368380396415459462477532696705841
15
OpenLynx : Define All Masses
16
Reject false positives
Lis
t mas
ses f
ound
M .H +
161187190199214244300327367367368368368380396415459462477532696705841
“Ghost-peaks, baseline fluctuations, blank peaks … will also add a mass to the list but will be rejected afterwards based on the missing 13C-isotope (marked yellow in the list).
DE-ADAO-0395 10:38:45
13-Dec-2001Coctail 1
200 250 300 350 400 450 500 550 600 650 700 750 800 850 900m/z16
100
%
COL1_10_25_S1 241 (4.043) Cm (238:243-(226:232+252:258)) 1: Scan ES+ 616213.88
181.98
862.75
392.58380.58
276.34265.34
246.95
323.59
278.79354.13
716.25580.91437.83
496.24685.38651.19
591.04 755.53786.27
Example 4Condition: 10mM pH 2.5Retention Time: 3.97
Example 4:MH+ 214 (BPI) will be rejected
17
Reprocess found masses
The list of all masses is reprocessed by OpenLynx to obtain for each mass the corresponding RT, area and peak width in each experiment. Co-elutors can now easily be tracked.
18
Tracking of all masses found with corresponding RT - Area - Peak Width
Lis
t mas
ses f
ound
pH 2.5 pH 4.8 pH 7 pH 910 mM 10 mM 10 mM 10 mM
M.H + RT Area Width RT Area Width RT Area Width RT Area Width161187190199214244300 12.43 2.85 0.25 12.25 2.77 0.36 12.16 7.12 0.20 12.26 2.77 0.35327 5.47 0.52 0.22367 12.46 11.40 0.22 13.22 1.78 0.27 10.46 2.04 0.27 8.94 1.85 0.34367 11.42 1.80 0.18 13.73 0.23 0.21 10.98 0.29 0.23 9.40 0.23 0.28368 7.32 0.69 0.16 6.65 0.22 0.21 7.66 0.22 0.23 10.14 0.24 0.34368 12.46 1.80 0.22 13.22 1.78 0.21 10.46 2.04 0.27 8.94 1.85 0.34368 11.42 0.71 0.18 13.73 0.23 0.27 10.98 0.29 0.23 9.40 0.23 0.28380 9.34 4.61 0.17 9.35 4.24 0.21 12.16 7.12 0.20 12.26 2.77 0.30396 9.27 3.34 0.17 9.10 3.06 0.18 11.59 2.69 0.14 12.99 2.54 0.27415459 9.79 3.94 0.21 11.57 74.25 0.61 13.43 3.81 0.48 16.01 2.88 0.24462 12.50 11.40 0.24 12.66 7.38 0.25 14.93 7.67 0.26 17.41 8.32 0.30477 12.50 11.40 0.24 12.77 2.64 0.22 13.69 3.46 0.29 16.14 2.36 0.24532 11.59 68.02 0.35 11.57 74.25 0.61 13.38 72.86 0.50 16.66 68.29 0.67696705 14.75 2.33 0.32 18.23 2.12 0.22 18.03 2.66 0.31 18.21 3.11 0.33841 7.41 0.22 0.15
The list of masses is now extended to a Summary Table
19
Summary TableL
ist m
asse
s fou
nd
pH 2.5 pH 4.8 pH 7 pH 910 mM 10 mM 10 mM 10 mM
M.H + RT Area Width RT Area Width RT Area Width RT Area Width161187190199214244300 12.43 2.85 0.25 12.25 2.77 0.36 12.16 7.12 0.20 12.26 2.77 0.35327 5.47 0.52 0.22367 12.46 11.40 0.22 13.22 1.78 0.27 10.46 2.04 0.27 8.94 1.85 0.34367 11.42 1.80 0.18 13.73 0.23 0.21 10.98 0.29 0.23 9.40 0.23 0.28368 7.32 0.69 0.16 6.65 0.22 0.21 7.66 0.22 0.23 10.14 0.24 0.34368 12.46 1.80 0.22 13.22 1.78 0.21 10.46 2.04 0.27 8.94 1.85 0.34368 11.42 0.71 0.18 13.73 0.23 0.27 10.98 0.29 0.23 9.40 0.23 0.28380 9.34 4.61 0.17 9.35 4.24 0.21 12.16 7.12 0.20 12.26 2.77 0.30396 9.27 3.34 0.17 9.10 3.06 0.18 11.59 2.69 0.14 12.99 2.54 0.27415459 9.79 3.94 0.21 11.57 74.25 0.61 13.43 3.81 0.48 16.01 2.88 0.24462 12.50 11.40 0.24 12.66 7.38 0.25 14.93 7.67 0.26 17.41 8.32 0.30477 12.50 11.40 0.24 12.77 2.64 0.22 13.69 3.46 0.29 16.14 2.36 0.24532 11.59 68.02 0.35 11.57 74.25 0.61 13.38 72.86 0.50 16.66 68.29 0.67696705 14.75 2.33 0.32 18.23 2.12 0.22 18.03 2.66 0.31 18.21 3.11 0.33841 7.41 0.22 0.15
If a particular mass is only found in a few experiments (number set by user), that mass is statistically not relevant and will be rejected.(marked green in the Summary Table)
If in the Summary Table two masses consistently co-elute over the whole number of experiments (retention time in two rows of the Summary Table match exactly), then the highest mass may be dropped. e.g. 13C-isotope, 81Br-isotope, 37Cl-isotope etc…(marked blue in the Summary Table)
20
Optimization SoftwareL
ist m
asse
s fou
nd
pH 2.5 pH 4.8 pH 7 pH 910 mM 10 mM 10 mM 10 mM
M.H + RT Area Width RT Area Width RT Area Width RT Area Width300 12.43 2.85 0.25 12.25 2.77 0.36 12.16 7.12 0.20 12.26 2.77 0.35367 12.46 11.40 0.22 13.22 1.78 0.27 10.46 2.04 0.27 8.94 1.85 0.34367 11.42 1.80 0.18 13.73 0.23 0.21 10.98 0.29 0.23 9.40 0.23 0.28368 7.32 0.69 0.16 6.65 0.22 0.21 7.66 0.22 0.23 10.14 0.24 0.34380 9.34 4.61 0.17 9.35 4.24 0.21 12.16 7.12 0.20 12.26 2.77 0.30396 9.27 3.34 0.17 9.10 3.06 0.18 11.59 2.69 0.14 12.99 2.54 0.27459 9.79 3.94 0.21 11.57 74.25 0.61 13.43 3.81 0.48 16.01 2.88 0.24462 12.50 11.40 0.24 12.66 7.38 0.25 14.93 7.67 0.26 17.41 8.32 0.30477 12.50 11.40 0.24 12.77 2.64 0.22 13.69 3.46 0.29 16.14 2.36 0.24532 11.59 68.02 0.35 11.57 74.25 0.61 13.38 72.86 0.50 16.66 68.29 0.67705 14.75 2.33 0.32 18.23 2.12 0.22 18.03 2.66 0.31 18.21 3.11 0.33
The lean Summary Table will be transferred to a chromatographic method development software (DryLab or ACD) for prediction of the optimum in wave 1, 2 and 3.
21
Conclusions and Remarks
ConclusionsThis screening and method development system will improve significantly the quality (reliability, robustness and cost reduction) of the methods and reduce the development time.
Remarks• Integrated peaks with no mass response are not covered.• Compounds with no UV response but with mass response are not covered.• Interference of non UV additives (cyclodextrines) can make the process of
mass tracking more difficult.• ZQ-MUX is exclusively used for peak tracking. The peaks not covered by
the system can be investigated afterwards with high resolution LC-MS.